Determination of turbulent energy dissipation rate directly from MF-radar determined velocity

被引:0
作者
C. M. Hall
S. Nozawa
A. H. Manson
C. E. Meek
机构
[1] University of Tromsø,The Auroral Observatory
[2] Nagoya University,STE Laboratory
[3] University of Saskatchewan,Institute of Space and Atmospheric Studies
来源
Earth, Planets and Space | 2000年 / 52卷
关键词
Gravity Wave; Earth Planet Space; Energy Dissipation Rate; Inertial Subrange; Lower Thermosphere;
D O I
暂无
中图分类号
学科分类号
摘要
MF radar systems are able to determine horizontal neutral winds in the mesosphere and, to some extent in the lower thermosphere by cross-correlations of signals received at spaced antennas. Essentially, by also computing auto-correlations, signal fading may be measured which in turn is thought to be largely attributable to turbulence. Hitherto, estimates of upper limits for the turbulent energy dissipation rate have been derived from the characteristic fading times. In this paper, we propose that power spectra of the velocity components themselves may be used to yield estimates of turbulent energy dissipation rate. 2-minute resolution velocities from the Universities of Saskatchewan, Tromsø and Nagoya joint MF radar at 69°N, 19°E are used in a pilot analysis to illustrate and ratify the method.
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页码:137 / 141
页数:4
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